Per-Inge Christensson scite author profile

Per-Inge Christensson

5Publications

29Citation Statements Received

24Citation Statements Given

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100

Affiliations

Lund University, Leo Pharma (Australia)

Publications

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Effects of Hyperthermia and Nicotinamide on DNA Repair Synthesis, ADP-ribosyl Transferase Activity, NAD⁺and ATP Pools, and Cytotoxicity in γ-irradiated Human Mononuclear Leukocytes

Kjellén

Jönsson

Pero

et al. 1985

International Journal of Radiation Biology and Related Studies

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Effects of hyperthermia and nicotinamide on ADP-ribosyl transferase activity (ADPRT), unscheduled DNA synthesis (UDS), NAD+- and ATP-pools and cytotoxicity were investigated in gamma-irradiated human mononuclear leukocytes. A significant decrease in radiation-induced UDS after heat treatment for 45 min was found. Nicotinamide increased the UDS levels in irradiated cells, but no effect of hyperthermia on these increased UDS values was observed. In the presence of 2 mM nicotinamide radiation-induced ADPRT activity was reduced to about 50 per cent. However, hyperthermia for 45 min was found to have no effect on the enzyme activity for temperatures below 46 degrees C. Nicotinamide increased the NAD+ pool in unirradiated cells. Damaging the cells with gamma-radiation leads to a severe depletion of the NAD+ pool. The NAD+ pool is restored, however, if the cells repair for 5 h at 37 degrees C. When radiation-damaged cells were treated with hyperthermia, exogenously supplied nicotinamide could not be converted to NAD+ in sufficient amounts to prevent NAD+ depletion. These data indicate that the radiosensitizing effect of heat and nicotinamide could both be explained by effects on the enzyme ADPRT, i.e. nicotinamide by directly blocking the enzyme and hyperthermia by limiting the co-substrate (NAD+).

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Characterization of muscarinic cholinergic receptors in membrane preparations from rat prostatic adenocarcinoma

1990

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The binding characteristics of 3H-quinuclidinyl benzilate (QNB) to muscarinic sites in isolated plasma membrane fractions from R-3327 Dunning tumors (H and AT-1 sublines); ventral, dorsolateral prostate; and urinary bladder of the rat were studied. QNB binding to all preparations, except from AT-1 tumors, was specific, saturable, and of high affinity. The AT-1 tumors completely lacked specific QNB binding. The muscarinic receptor density in H tumors was twofold and twentyfold higher than that in the ventral prostate and dorsolateral prostate respectively. The receptor density in the urinary bladder was approximately twofold higher than that in H tumors. The Kd values in H tumors and ventral prostate were very similar and significantly higher than that in dorsolateral prostate or the urinary bladder. QNB binding in H tumors was strongly inhibited by classical muscarinic receptor antagonists atropine and scopolamine, but poorly by the agonists carbacholine and pilocarpine. In contrast to scopolamine or atropine, inhibition by pirenzepine and AF-DX116 was relatively low. These data indicate that the muscarinic receptor in Dunning H tumors is of M3 type.

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Elevated Serum Growth Hormone in Protein-Deprived Rats, and Decreased Liver RNA after Hypophysectomy

Christensson¹,

Rerup²,

Seyer‐Hansen³

et al. 1975

Hoppe-Seyler´s Zeitschrift für physiologische Chemie

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Effects of dosage and infusion time on the incorporation of 5‐fluorouracil into DNA and RNA of normal tissues and an adenocarcinoma transplanted to rat liver

Erichsen

Christensson

Jacobsson

et al. 1988

Journal of Surgical Oncology

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In a model of secondary liver cancer in Wistar rats the incorporation of 5-FUra into the acid soluble fraction, RNA, and DNA of several normal tissues and of an adenocarcinoma of the colon transplanted to the liver was determined; 300, 1,200 or 24,000 nmoles of 5-FUra were infused via the gastroduodenal artery for 0.5, 2, or 24 hr. The rats were killed 1.5, 3, or 24 hr after the beginning of the infusions. In general, higher doses resulted in a higher labelling. However, the ratio of incorporation into tumor RNA compared to normal tissue RNA was higher at the 1,200 than at the 24,000 nmole dosage. There was a decreased RNA/DNA ratio in the tumor at 24 hr after 24,000 nmoles of 5-FUra had been infused over 0.5 or 2 hr, indicating decreased synthesis and/or increased breakdown of RNA.

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Nucleic Acid Labeling with [3H]Orotic Acid and Nucleotide Profile in Rats in Protein Deprivation, Enteral and Parenteral Essential Amino Acid Administration, and 5‐Fluorouracil Treatment

Jakobsson

Hag

Andersson

et al. 1990

J Parenter Enteral Nutr

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Rats were fed a 0% casein diet for 1 week, with or without enteral or parenteral administration of essential amino acids, or a 25% casein diet, in one group supplemented with 5-fluorouracil treatment. Ninety minutes before sacrifice the rats were given a tracer of [3H]orotic acid. Incorporation into the acid soluble fraction, RNA, and DNA was determined in liver, small intestine, bone marrow, and kidney. Nucleotide profile was examined in liver and intestine. Protein deficiency caused inter alia a decrease in body weight; a decrease in RNA/DNA ratio and an increase in the specific RNA labeling in liver and kidney; an altered nucleotide profile in the liver; an increase in the nucleotide/DNA and RNA/DNA ratios and a decrease in the specific labeling of the acid soluble fraction, RNA, and DNA in the bone marrow. These changes were prevented to the same extent by giving essential amino acids, either orally or intravenously. The minor changes in intestinal nucleotide profile in protein deprivation were prevented to a slightly larger extent by amino acids orally than parenterally. 5-Fluorouracil treatment gave a decrease in the RNA/DNA ratio in the liver and kidney but an increase in the nucleotide/DNA and RNA/DNA ratios in the bone marrow. Nucleotide profiles were unaltered. The amount of DNA per gram of tissue decreased in bone marrow and increased in kidney. Parenteral administration per se resulted in almost no changes.

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